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//
// Copyright 2011-2012 Ettus Research LLC
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
#include "e100_ctrl.hpp"
#include "e100_regs.hpp"
#include <uhd/exception.hpp>
#include <uhd/utils/log.hpp>
#include <uhd/utils/msg.hpp>
#include <sys/ioctl.h> //ioctl
#include <fcntl.h> //open, close
#include <linux/usrp_e.h> //ioctl structures and constants
#include <poll.h> //poll
#include <boost/thread/thread.hpp> //sleep
#include <boost/thread/mutex.hpp>
#include <boost/thread/condition_variable.hpp>
#include <boost/foreach.hpp>
#include <boost/format.hpp>
#include <fstream>
using namespace uhd;
using namespace uhd::transport;
/***********************************************************************
* Sysfs GPIO wrapper class
**********************************************************************/
class gpio{
public:
gpio(const int num, const std::string &dir) : _num(num){
this->set_xport("export");
this->set_dir(dir);
_value_file.open(str(boost::format("/sys/class/gpio/gpio%d/value") % num).c_str(), std::ios_base::in | std::ios_base::out);
}
~gpio(void){
_value_file.close();
this->set_dir("in");
this->set_xport("unexport");
}
void operator()(const int val){
_value_file << val << std::endl << std::flush;
}
int operator()(void){
std::string val;
std::getline(_value_file, val);
_value_file.seekg(0);
return int(val.at(0) - '0') & 0x1;
}
private:
void set_xport(const std::string &xport){
std::ofstream export_file(("/sys/class/gpio/" + xport).c_str());
export_file << _num << std::endl << std::flush;
export_file.close();
}
void set_dir(const std::string &dir){
std::ofstream dir_file(str(boost::format("/sys/class/gpio/gpio%d/direction") % _num).c_str());
dir_file << dir << std::endl << std::flush;
dir_file.close();
}
const int _num;
std::fstream _value_file;
};
/***********************************************************************
* Protection for dual GPIO access - sometimes MISO, sometimes have resp
**********************************************************************/
static boost::mutex gpio_irq_resp_mutex;
/***********************************************************************
* Aux spi implementation
**********************************************************************/
class aux_spi_iface_impl : public spi_iface{
public:
aux_spi_iface_impl(void):
spi_sclk_gpio(65, "out"),
spi_sen_gpio(186, "out"),
spi_mosi_gpio(145, "out"),
spi_miso_gpio(147, "in")
{
this->spi_sen_gpio(1); //not selected
this->spi_sclk_gpio(0); //into reset
this->spi_sclk_gpio(1); //out of reset
}
boost::uint32_t transact_spi(
int, const spi_config_t &, //not used params
boost::uint32_t bits,
size_t num_bits,
bool readback
){
boost::mutex::scoped_lock lock(gpio_irq_resp_mutex);
boost::uint32_t rb_bits = 0;
this->spi_sen_gpio(0);
for (size_t i = 0; i < num_bits; i++){
this->spi_sclk_gpio(0);
this->spi_mosi_gpio((bits >> (num_bits-i-1)) & 0x1);
boost::this_thread::sleep(boost::posix_time::microseconds(10));
if (readback) rb_bits = (rb_bits << 1) | this->spi_miso_gpio();
this->spi_sclk_gpio(1);
boost::this_thread::sleep(boost::posix_time::microseconds(10));
}
this->spi_sen_gpio(1);
boost::this_thread::sleep(boost::posix_time::microseconds(100));
return rb_bits;
}
private:
gpio spi_sclk_gpio, spi_sen_gpio, spi_mosi_gpio, spi_miso_gpio;
};
uhd::spi_iface::sptr e100_ctrl::make_aux_spi_iface(void){
return uhd::spi_iface::sptr(new aux_spi_iface_impl());
}
/***********************************************************************
* I2C device node implementation wrapper
**********************************************************************/
#include <linux/i2c-dev.h>
#include <linux/i2c.h>
class i2c_dev_iface : public i2c_iface{
public:
i2c_dev_iface(const std::string &node){
if ((_node_fd = ::open(node.c_str(), O_RDWR)) < 0){
throw uhd::io_error("Failed to open " + node);
}
}
~i2c_dev_iface(void){
::close(_node_fd);
}
void write_i2c(boost::uint16_t addr, const byte_vector_t &bytes){
byte_vector_t rw_bytes(bytes);
//setup the message
i2c_msg msg;
msg.addr = addr;
msg.flags = 0;
msg.len = bytes.size();
msg.buf = &rw_bytes.front();
//setup the data
i2c_rdwr_ioctl_data data;
data.msgs = &msg;
data.nmsgs = 1;
//call the ioctl
UHD_ASSERT_THROW(::ioctl(_node_fd, I2C_RDWR, &data) >= 0);
}
byte_vector_t read_i2c(boost::uint16_t addr, size_t num_bytes){
byte_vector_t bytes(num_bytes);
//setup the message
i2c_msg msg;
msg.addr = addr;
msg.flags = I2C_M_RD;
msg.len = bytes.size();
msg.buf = &bytes.front();
//setup the data
i2c_rdwr_ioctl_data data;
data.msgs = &msg;
data.nmsgs = 1;
//call the ioctl
UHD_ASSERT_THROW(::ioctl(_node_fd, I2C_RDWR, &data) >= 0);
return bytes;
}
private: int _node_fd;
};
uhd::i2c_iface::sptr e100_ctrl::make_dev_i2c_iface(const std::string &node){
return uhd::i2c_iface::sptr(new i2c_dev_iface(node));
}
/***********************************************************************
* UART control implementation
**********************************************************************/
#include <termios.h>
#include <cstring>
class uart_dev_iface : public uart_iface{
public:
uart_dev_iface(const std::string &node){
if ((_node_fd = ::open(node.c_str(), O_RDWR | O_NONBLOCK)) < 0){
throw uhd::io_error("Failed to open " + node);
}
//init the tty settings w/ termios
termios tio;
std::memset(&tio,0,sizeof(tio));
tio.c_iflag = IGNCR; //Ignore CR
tio.c_oflag = OPOST | ONLCR; //Map NL to CR-NL on output
tio.c_cflag = CS8 | CREAD | CLOCAL; // 8n1
tio.c_lflag = 0;
cfsetospeed(&tio, B115200); // 115200 baud
cfsetispeed(&tio, B115200); // 115200 baud
tcsetattr(_node_fd, TCSANOW, &tio);
}
void write_uart(const std::string &buf){
const ssize_t ret = ::write(_node_fd, buf.c_str(), buf.size());
if (size_t(ret) != buf.size()) UHD_LOG << ret;
}
std::string read_uart(double timeout){
const boost::system_time exit_time = boost::get_system_time() + boost::posix_time::milliseconds(long(timeout*1000));
std::string line;
while(true){
char ch;
const ssize_t ret = ::read(_node_fd, &ch, 1);
//got a character -> process it
if (ret == 1){
_line += ch;
if (ch == '\n')
{
line = _line;
_line.clear();
break;
}
}
//didnt get a character, check the timeout
else if (boost::get_system_time() > exit_time){
break;
}
//otherwise sleep for a bit
else{
boost::this_thread::sleep(boost::posix_time::milliseconds(10));
}
}
return line;
}
private:
int _node_fd;
std::string _line;
};
uhd::uart_iface::sptr e100_ctrl::make_gps_uart_iface(const std::string &node){
return uhd::uart_iface::sptr(new uart_dev_iface(node));
}
/***********************************************************************
* Simple managed buffers
**********************************************************************/
struct e100_simpl_mrb : managed_recv_buffer
{
usrp_e_ctl32 data;
e100_ctrl *ctrl;
void release(void)
{
//NOP
}
sptr get_new(void)
{
const size_t max_words32 = 8; //.LAST_ADDR(10'h00f)) resp_fifo_to_gpmc
//load the data struct
data.offset = 0;
data.count = max_words32;
//call the ioctl
ctrl->ioctl(USRP_E_READ_CTL32, &data);
if (data.buf[0] == 0 or ~data.buf[0] == 0) return sptr(); //bad VRT hdr, treat like timeout
return make(this, data.buf, sizeof(data.buf));
}
};
struct e100_simpl_msb : managed_send_buffer
{
usrp_e_ctl32 data;
e100_ctrl *ctrl;
void release(void)
{
const size_t max_words32 = 8; //.LAST_ADDR(10'h00f)) resp_fifo_to_gpmc
//load the data struct
data.offset = 0;
data.count = max_words32;
//call the ioctl
ctrl->ioctl(USRP_E_WRITE_CTL32, &data);
}
sptr get_new(void)
{
return make(this, data.buf, sizeof(data.buf));
}
};
/***********************************************************************
* USRP-E100 control implementation
**********************************************************************/
class e100_ctrl_impl : public e100_ctrl{
public:
int get_file_descriptor(void){
return _node_fd;
}
/*******************************************************************
* Structors
******************************************************************/
e100_ctrl_impl(const std::string &node){
UHD_MSG(status) << "Opening device node " << node << "..." << std::endl;
//open the device node and check file descriptor
if ((_node_fd = ::open(node.c_str(), O_RDWR)) < 0){
throw uhd::io_error("Failed to open " + node);
}
//check the module compatibility number
int module_compat_num = ::ioctl(_node_fd, USRP_E_GET_COMPAT_NUMBER, NULL);
if (module_compat_num != USRP_E_COMPAT_NUMBER){
throw uhd::runtime_error(str(boost::format(
"Expected module compatibility number 0x%x, but got 0x%x:\n"
"The module build is not compatible with the host code build."
) % USRP_E_COMPAT_NUMBER % module_compat_num));
}
std::ofstream edge_file("/sys/class/gpio/gpio147/edge");
edge_file << "rising" << std::endl << std::flush;
edge_file.close();
_irq_fd = ::open("/sys/class/gpio/gpio147/value", O_RDONLY);
if (_irq_fd < 0) UHD_MSG(error) << "Unable to open GPIO for IRQ\n";
}
~e100_ctrl_impl(void){
::close(_irq_fd);
::close(_node_fd);
}
/*******************************************************************
* IOCTL: provides the communication base for all other calls
******************************************************************/
void ioctl(int request, void *mem){
boost::mutex::scoped_lock lock(_ioctl_mutex);
if (::ioctl(_node_fd, request, mem) < 0){
throw uhd::os_error(str(
boost::format("ioctl failed with request %d") % request
));
}
}
/*******************************************************************
* The managed buffer interface
******************************************************************/
UHD_INLINE bool resp_read(void)
{
//thread stuff ensures that this GPIO isnt shared
boost::mutex::scoped_lock lock(gpio_irq_resp_mutex);
//perform a read of the GPIO IRQ state
char ch;
::read(_irq_fd, &ch, sizeof(ch));
::lseek(_irq_fd, SEEK_SET, 0);
return ch == '1';
}
UHD_INLINE bool resp_wait(const double timeout)
{
//perform a check, if it fails, poll
if (this->resp_read()) return true;
//poll IRQ GPIO for some action
pollfd pfd;
pfd.fd = _irq_fd;
pfd.events = POLLPRI | POLLERR;
::poll(&pfd, 1, long(timeout*1000)/*ms*/);
//perform a GPIO read again for result
return this->resp_read();
}
managed_recv_buffer::sptr get_recv_buff(double timeout)
{
if (not this->resp_wait(timeout))
{
return managed_recv_buffer::sptr();
}
_mrb.ctrl = this;
return _mrb.get_new();
}
managed_send_buffer::sptr get_send_buff(double)
{
_msb.ctrl = this;
return _msb.get_new();
}
size_t get_num_recv_frames(void) const{
return 1;
}
size_t get_recv_frame_size(void) const{
return sizeof(_mrb.data.buf);
}
size_t get_num_send_frames(void) const{
return 1;
}
size_t get_send_frame_size(void) const{
return sizeof(_msb.data.buf);
}
private:
int _node_fd;
int _irq_fd;
boost::mutex _ioctl_mutex;
e100_simpl_mrb _mrb;
e100_simpl_msb _msb;
};
/***********************************************************************
* Public Make Function
**********************************************************************/
e100_ctrl::sptr e100_ctrl::make(const std::string &node){
return sptr(new e100_ctrl_impl(node));
}
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